A printing system which is capable of performing square back processing and preventing occurrence of a new trouble of inadvertently creating a saddle-stitched brochure defective in the appearance of a trimmed edge and/or print appearance, which is unexpected by an operator. A receiving unit receives a job of a first type for creating a saddle-stitched brochure subjected to square back processing and trimming processing or a second type creating a saddle-stitched brochure not subjected to the square back processing but subjected to the trimming processing. A controller controls a trimming position at an end of the sheet bundle for the job and/or an image printing position on a sheet included in the sheet bundle based on whether a job to be processed is of the first type or of the second type.
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22. A bookbinding method comprising:
a folding step of performing a folding processing on a sheet bundle comprising a plurality of sheets;
a trimming step of performing a trimming processing for trimming an end of the sheet bundle on which the folding processing is performed;
a setting step of setting a trimming amount of the trimming processing based on a input of a user;
a comparing step of comparing the trimming amount set at the setting step with a shift amount between an inner sheet and an outer sheet of the folded sheet bundle occurring at an edge of the folded sheet bundle; and
a control step of controlling whether or not to perform the trimming processing based on the set trimming amount at the trimming step, based on a comparison result of the comparing step.
10. A bookbinding system comprising:
a folding unit configured to perform a folding processing on a sheet bundle comprising a plurality of sheets;
a trimming unit configured to perform a trimming processing for trimming an end of the sheet bundle on which the folding processing is performed;
a setting unit configured to set a trimming amount of the trimming processing based on a input of a user;
a comparing unit configured to compare the trimming amount set by the setting unit with a shift amount between an inner sheet and an outer sheet of the folded sheet bundle occurring at an edge of the folded sheet bundle; and
a control unit configured to control whether or not to cause the trimming unit to perform the trimming processing based on the set trimming amount, based on a comparison result of the comparing unit.
20. A bookbinding method comprising:
a folding step of performing a folding processing on a sheet bundle comprising a plurality of sheets;
a trimming step of performing a trimming processing for trimming an end of the sheet bundle on which the folding processing is performed;
a setting step of setting a trimming amount of the trimming processing based on a input of a user; and
a control step of inhibiting, when a shift amount between an inner sheet and an outer sheet of the folded sheet bundle occurring at an edge of the folded sheet bundle is greater than the trimming amount set at the setting step, performing the trimming processing based on the set trimming amount at the trimming step, and to allow, when the shift amount is not greater than the set trimming amount, performing the trimming processing based on the set trimming amount at the trimming step.
1. A bookbinding system comprising:
a folding unit configured to perform a folding processing on a sheet bundle comprising a plurality of sheets;
a trimming unit configured to perform a trimming processing for trimming an end of the sheet bundle on which the folding processing is performed;
a setting unit configured to set a trimming amount of the trimming processing based on an input of a user; and
a control unit configured to inhibit, when a shift amount between an inner sheet and an outer sheet of the folded sheet bundle occurring at an edge of the folded sheet bundle is greater than the trimming amount set by the setting unit, the trimming unit from performing the trimming processing based on the set trimming amount, and to allow, when the shift amount is not greater than the set trimming amount, the trimming unit to perform the trimming processing based on the set trimming amount.
23. A non-transitory computer-readable storage medium storing a program for causing a computer to execute a bookbinding method,
the bookbinding method comprising:
a folding step of performing a folding processing on a sheet bundle comprising a plurality of sheets;
a trimming step of performing a trimming processing for trimming an end of the sheet bundle on which the folding processing is performed;
a setting step of setting a trimming amount of the trimming processing based on a input of a user;
a comparing step of comparing the trimming amount set at the setting step with a shift amount between an inner sheet and an outer sheet of the folded sheet bundle occurring at an edge of the folded sheet bundle; and
a control step of controlling whether or not to perform the trimming processing based on the set trimming amount at the trimming step, based on a comparison result of the comparing step.
21. A non-transitory computer-readable storage medium storing a program for causing a computer to execute a bookbinding method,
the bookbinding method comprising:
a folding step of performing a folding processing on a sheet bundle comprising a plurality of sheets;
a trimming step of performing a trimming processing for trimming an end of the sheet bundle on which the folding processing is performed;
a setting step of setting a trimming amount of the trimming processing based on a input of a user; and
a control step of inhibiting, when a shift amount between an inner sheet and an outer sheet of the folded sheet bundle occurring at an edge of the folded sheet bundle is greater than the trimming amount set at the setting step, performing the trimming processing based on the set trimming amount at the trimming step, and to allow, when the shift amount is not greater than the set trimming amount, performing the trimming processing based on the set trimming amount at the trimming step.
2. The bookbinding system according to
wherein the control unit controls, when the shift amount is greater than the set trimming amount, the display unit to display the warning screen.
3. The bookbinding system according to
4. The bookbinding system according to
5. The bookbinding system according to
6. The bookbinding system according to
wherein the setting unit sets the trimming amount in the trimming processing based on the input of the user which is input through the configuration screen.
7. The bookbinding system according to
8. The bookbinding system according to
9. The bookbinding system according to
wherein the folding unit performs the folding processing on the sheet bundle comprising the plurality of sheets on which the printing processing is performed.
11. The bookbinding system according to
12. The bookbinding system according to
wherein the control unit inhibits the trimming unit from performing the trimming processing based on the set trimming amount based on an input of the user through the warning screen.
13. The bookbinding system according to
14. The bookbinding system according to
15. The bookbinding system according to
16. The bookbinding system according to
wherein the setting unit sets the trimming amount in the trimming processing based on the input of the user which is input through the configuration screen.
17. The bookbinding system according to
18. The bookbinding system according to
19. The bookbinding system according to
wherein the folding unit performs the folding processing on the sheet bundle comprising the plurality of sheets on which the printing processing is performed.
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This is a divisional of Ser. No. 12/194,321, filed Aug. 19, 2008, for which benefit is claimed, and status is pending, which in turn claims priority from JP Application No. 2007-213842, filed Aug. 20, 2007 the content of which is incorporated herein by reference.
1. Field of the Invention
The present invention relates to a printing system which is configured to be capable of performing square back processing, a job processing method, a storage medium, a program product and a printing apparatus.
2. Description of the Related Art
Recently, there has been proposed a POD (Print On Demand) printing system using an electrophotographic printing apparatus or an inkjet printing apparatus (see Japanese Patent Laid-Open Publications No. 2004-310746 and No. 2004-310747). The POD printing system of this type is advantageous in that block copy preparation and other complicated operations required by an offset plate making printer can be dispensed with.
On the other hand, in the POD market, there can be demands for creating various forms of printouts. For example, there can be a demand for creating a printout subjected to saddle-stitching bookbinding (hereinafter also referred to “saddle-stitched brochure”) having a special form obtained e.g. by performing a squaring process for making square the back of a saddle-stitched brochure (such that a square back is formed). To perform a squaring process such that the back of a saddle-stitched brochure is flattened (i.e. roundness of the back is suppressed) is referred to as square back (or square hold) processing. There has been proposed a technique for performing the square back processing by a special post-processing apparatus (see Japanese Patent Laid-Open Publication No. 2006-159894).
However, the above-mentioned post-processing apparatus capable of performing the square back processing is configured to be usable as an offline finisher provided independently of a printing apparatus. For this reason, an operator (or a user) is required to carry out work for taking out a printout after execution of printing by the printing apparatus, and manually setting the printout in the post-processing apparatus.
In view of this situation, it can be expected that the POD market or the like will demand a printing system in which a post-processing apparatus capable of creating a saddle-stitched brochure subjected to square back processing can be made use of as an inline finisher connectable to a printing apparatus, in the future. Further, it can be expected that there will be a demand for a printing system which is capable of carrying out an entire process from print processing executed by a printing apparatus to creation of a saddle-stitched brochure subjected to square back processing, in the future.
In a case where a printing system is configured to be capable of meeting the above-mentioned demands, it is preferable to prevent occurrence of a trouble due to the fact that the system is configured to be capable of performing the process from print processing to square back processing.
However, the present situation is not such that the above-mentioned possible problem of occurrence of the trouble is tackled to provide a countermeasure for making such a printing system commercially available/practical, and hence, no research has been made on a mechanism for preventing occurrence of troubles that can occur in the following situations:
Let it be assumed, for example, that the printing system has a trimmer unit capable of trimming a saddle-stitched brochure delivered from the printing apparatus, at a fore edge of the brochure, which is an opposite end from the back of the same. The trimmer unit trims the saddle-stitched brochure by a predetermined trimming amount specified by a distance from the fore edge of the brochure. Assume, on the other hand, a case where the trimmer unit of the printing system is capable of trimming both a saddle-stitched brochure in a job not requiring square back processing and a saddle-stitched brochure in a job requiring square back processing. In this case, when the trimmer unit trims the saddle-stitched brochure in the job requiring square back processing, an event can occur in which one or more outer sheets (which can include not only a cover sheet disposed on the outermost side of the printout (i.e. a sheet bundle formed by a plurality of sheets and folded in half by saddle-stitch processing), but also one or more outer sheets of the main portion of the printout) of the brochure are not trimmed, but only one or more inner sheets (i.e. the main portion) of the same are trimmed, which makes the creation of the brochure wasteful.
Further, assume a case where the printing system tentatively performs printing using ordinary sheets and saddle stitching of printed sheets to check the finished state of a saddle-stitched brochure, and then in actual printing, performs reprinting using thick sheets to thereby create the saddle-stitched brochure. Further, let be assumed that a saddle-stitch job originally configured to be one not requiring square back processing can be changed to one requiring the square back processing. When the printing system is thus configured, the above-mentioned event can occur in which the substance (one or more inner sheets) of the saddle-stitched brochure is trimmed, but one or more outer sheets including a cover sheet are not.
Furthermore, although there occurs no problem with printing positions in processing without square back processing, the saddle-stitched brochure trimmed as above after being subjected to processing with square back processing can suffer from the problem of a shift in image position being caused between inner sheets and outer sheets of the brochure.
As described above, when the printing system is constructed to be capable of performing square back processing, there is a possibility of a new trouble of inadvertently creating a saddle-stitched brochure defective in the appearance of a trimmed edge and/or print appearance, which is unexpected by an operator.
The present invention provides a printing system which is capable of performing square back processing and preventing occurrence of a new trouble of inadvertently creating a saddle-stitched brochure defective in the appearance of a trimmed edge and/or print appearance, which is unexpected by an operator, as well as a job processing method, a storage medium, a program product and a printing apparatus.
In a first aspect of the present invention, there is provided a printing system comprising a receiving unit adapted to receive a job of a first type or a second type, the job of the first type being a job for creating a saddle-stitched brochure subjected to square back processing and trimming processing and the job of the second type being a job for creating a saddle-stitched brochure not subjected to the square back processing but subjected to the trimming processing, the square back processing being performed by a working unit, the working unit being a unit adapted to form a flat surface on a back of a sheet bundle subjected to saddle-stitch processing, the saddle-stitch processing being performed by a saddle stitching unit, the saddle stitching unit being adapted to perform the saddle-stitch processing on a sheet bundle subjected to print processing by a printing unit, and a control unit adapted to control a trimming position and/or a printing position based on whether a job to be processed is of the first type or of the second type, the trimming position being a trimming position at an end of the sheet bundle for the job, and the printing position being an image printing position on a sheet included in the sheet bundle.
In a second aspect of the present invention, there is provided a job processing method applied to a printing system, comprising receiving a job of a first type or a second type, the job of the first type being a job for creating a saddle-stitched brochure subjected to square back processing and trimming processing and the job of the second type being a job for creating a saddle-stitched brochure not subjected to the square back processing but subjected to the trimming processing, the square back processing being performed by a working unit, the working unit being a unit adapted to form a flat surface on a back of a sheet bundle subjected to saddle-stitch processing, the saddle-stitch processing being performed by a saddle stitching unit, the saddle stitching unit being adapted to perform the saddle-stitch processing on a sheet bundle subjected to print processing by a printing unit, and controlling a trimming position and/or a printing position based on whether a job to be processed is of the first type or of the second type, the trimming position being a trimming position at an end of the sheet bundle for the job, and the printing position being an image printing position on a sheet included in the sheet bundle.
In a third aspect of the present invention, there is provided a computer-readable storage medium storing a program for causing a computer to execute the job processing method.
In a fourth aspect of the present invention, there is provided a program product for causing a computer to execute the job processing method, the program being storable in a computer-readable storage medium.
In a fifth aspect of the present invention, there is provided a printing apparatus applicable to the printing system, comprising the printing unit, the receiving unit, and the control unit.
With the configuration of the present invention, it is possible to prevent the printing system capable of performing square back processing from causing a new trouble of inadvertently creating a saddle-stitched brochure defective in the appearance of a trimmed edge and/or print appearance, which is unexpected by an operator.
The features and advantages of the invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.
The present invention will now be described in detail with reference to the drawings showing embodiments thereof.
The POD system 1 includes the printing system 1000, a scanner 102, a server computer (PC) 103, and a client computer (PC) 104, which are interconnected via a network 101. Further, the POD system 1 includes a sheet folding machine 107, a trimming machine 109, a saddle stitching machine 110, and a casing-in machine 108.
The PC 103 manages data transmission and reception to and from various apparatuses connected to the network 101. The PC 104 transmits image data to the printing system 1000 or the PC 103 via the network 101. The sheet folding machine 107 performs folding of sheets printed by the printing system 1000. The casing-in machine 108 performs case binding of sheets printed by the printing system 1000. The trimming machine 109 performs trimming of each sheet bundle formed of sheets printed by the printing system 1000. The saddle stitching machine 110 performs saddle-stitch processing on each sheet bundle formed by sheets printed by the printing system 1000.
In the case of using the sheet folding machine 107, the casing-in machine 108, the trimming machine 109, or the saddle stitching machine 110, an operator (or a user) takes out a bundle of printed sheets from the printing system 1000 and sets the same in the machine so as to cause the machine to perform the associated processing.
The machines and apparatuses included in the POD system 1 are connected to the network 101 except the saddle stitching machine 110 such that they can perform data communication with each other.
Next, the configuration of the printing system 1000 will be described with reference to
As shown in
Units included in the printing system 1000 belong to the printing apparatus 100 except the sheet processing apparatuses 200. The printing apparatus 100 can have an optional number of sheet processing apparatuses 200 connected thereto. The printing system 1000 is configured to be capable of causing the sheet processing apparatuses 200 connected to the printing apparatus 100 to execute sheet processing (post processing) on sheets printed by the printing apparatus 100. It should be noted that it is possible to form the printing system 1000 by the printing apparatus 100 alone without connecting the sheet processing apparatuses 200 to the printing apparatus 100.
Each of the sheet processing apparatuses 200 is communicable with the printing apparatus 100, and is capable of performing post processing, described hereinafter, in response to an instruction from the printing apparatus 100. A scanner section 201 reads an image from an original and converts the image into image data, followed by transferring the image data to another unit. An external I/F 202 exchanges data with other apparatuses (external devices) connected to the network 101. A printer section 203 prints an image on a sheet based on input image data. An operating section 204 has a hard key input section (key input section) 402 and a touch panel section 401, described hereinafter, and accepts instructions from the operator via the hard key input section 402 or the touch panel section 401. Further, the operating section 204 performs various kinds of display on the touch panel section 401.
A controller 205 performs centralized overall control of the processing and operations of the respective units included in the printing system 1000. More specifically, the controller 205 controls not only the operation of the printing apparatus 100, but also that of each of the sheet processing apparatuses 200 connected to the printing apparatus 100. A ROM 207 stores various computer programs to be executed by the controller 205. For example, the ROM 207 stores programs for causing the controller 205 to execute processes of respective flowcharts, described hereinafter, and a display control program required for displaying various kinds of configuration screens, described hereinafter. Further, the ROM 207 stores a program for causing the controller 205 to perform an operation for interpreting PDL (Page Description Language) code data received from the PC 103, the PC 104, or the like, and converting the data into raster image data. Furthermore, the ROM 207 stores a boot sequence, font information, etc.
A RAM 208 stores image data sent from the scanner section 201 or the external I/F 202, various kinds of programs loaded from the ROM 207, and configuration information. Further, the RAM 208 stores information concerning the sheet processing apparatuses 200. The information concerning the sheet processing apparatuses 200 includes the number (0 to n) of the apparatuses connected to the printing apparatus 100, information concerning the functions of each of the sheet processing apparatuses 200, the connection order of the sheet processing apparatuses 200, and so forth.
A HDD (hard disk drive) 209 includes a hard disk and a drive section that reads/writes data from/into the hard disk. The HDD 209 is a large-capacity storage device for storing image data input from the scanner section 201 or the external I/F 202 and compressed by a compression/expansion section 210. The controller 205 is capable of causing the printer section 203 to print image data stored in the HDD 209, based on an instruction from the operator. Further, the controller 205 is capable of sending image data stored in the HDD 209 to an external device, such as the PC 103, via the external I/F 202 based on an instruction from the operator. The compression/expansion section 210 compresses/expands image data and the like stored in the RAM 208 or the HDD 209 using one of various kinds of compression methods including JBIG and JPEG.
Referring to
An automatic document feeder (ADF) 301 sequentially separates sheets of an original bundle set on the sheet stacking surface of a document tray, one by one in order from a first page, and conveys the separated sheets one by one onto an original platen glass for scanning by the scanner section 302.
The scanner section 302 reads an image from an original conveyed onto the original platen glass and converts the image into image data by a CCD (Charge Coupled Device). A rotary polygon mirror 303 receives light, such as a laser beam, modulated according to the image data, and emits the light onto a photosensitive drum 304 via a reflective mirror as reflected scanning light. A latent image formed on the photosensitive drum 304 by the laser beam is developed by toner, and the developed toner image is transferred onto a sheet wound around a transfer drum 305. This sequential image forming process is carried out sequentially using yellow (Y) toner, magenta (M) toner, cyan (C) toner, and black (K) toner in the mentioned order, whereby a full-color image is formed.
After execution of the four image forming processes, the sheet having the full-color image formed thereon is separated from the transfer drum 305 by a separation claw 306, and is conveyed to a fixing device 308 by a pre-fixing conveyor 307. The fixing device 308 incorporates rollers, a belt, and a heater, such as a halogen heater, and dissolves toner of the toner image transferred on the sheet having, by heat and pressure, to thereby fix the toner image on the sheet. A discharge flapper 309 is configured to be swingable about a swing shaft to regulate a sheet conveying direction. When the discharge flapper 309 has swung in a clockwise direction as viewed in
On the other hand, in the case of forming images on the respective opposite sides of a sheet, the discharge flapper 309 swings in a counterclockwise direction as viewed in
In the case of processing a double-sided printing job, the controller 205 swings the inverting flapper 311 in the counterclockwise direction as viewed in
The sheet guided to the double-sided tray 314 is temporarily placed thereon, and then conveyed to a registration roller 316 again by reefed rollers 315. At this time, the sheet is conveyed with a reverse side thereof opposite to the first side in a facing relation to the photosensitive drum. Then, a second-side image is formed on the second side (reverse side) of the sheet by processes similar to those associated with the first side. Thus, the sheet having the images formed on the both sides thereof passes through the fixing device 308, followed by being discharged out from the printing apparatus 100 via the discharge roller 310. The controller 205 causes the printing apparatus 100 to execute the above-mentioned series of sequences to thereby to perform double-sided printing.
The printing apparatus 100 has feeder sections each containing sheets necessary for printing. The feeder sections include sheet feed cassettes 317 and 318 (each of which is capable of containing 500 sheets, for example), a sheet feed deck 319 (which is capable of containing 5000 sheets, for example), and a manual feed tray 320. The sheet feed cassettes 317 and 318 and the sheet feed deck 319 are configured such that sheets of kinds different in size and material can be separately set in the respective feeder sections. It is possible to set various kinds of sheets including special sheets, such as OHP sheets, on the manual feed tray 320. Each of the sheet feed cassettes 317 and 318, the sheet feed deck 319, and the manual feed tray 320 is provided with a feed roller, and sheets therein are continuously fed one by one by the feed roller.
Next, a description will be given of the sheet processing apparatuses 200 appearing in
The controller 205 accepts, as a job, a request for execution of sheet processing of a kind selected by the operator from candidates of various kinds of sheet processing executable by the sheet processing apparatuses 200 connected to the printing apparatus 100, via the operating section 204 together with a printing execution request. Then, in response to the printing execution request of the job accepted from the operator via the operating section 204, the controller 205 causes the printer section 203 to execute print processing required for the job. Further, the controller 205 causes sheets having undergone the print processing to be conveyed through the sheet conveying path to a sheet processing apparatus which is capable of executing the sheet processing desired by the operator, and causes the sheet processing apparatus to execute the sheet processing.
Let it be assumed that the printing system 1000 having a system configuration shown in
The printout held in the discharge destination X for the stacker job can be taken out directly from the discharge destination X by the operator. This eliminates the necessity of a series of apparatus operations and an operator operation for conveying sheets to a discharge destination Z most downstream in the sheet conveying direction in
Let it be assumed that in the print system 1000, a job associated with a printing execution request accepted from the operator instructs execution of sheet processing (e.g. glue binding selected between case binding and top gluing) by the glue binding machine 200-3b. This job will be referred to as “the glue binding job”. In the case of processing the glue binding job in the printing system 1000, the controller 205 causes the printing system 1000 to convey sheets printed by the printing apparatus 100 into the glue binding machine 200-3b while passing the sheets over the point A and a point B appearing in
Let it be assumed that in the printing system 1000, a job associated with a printing execution request accepted from the operator instructs execution of sheet processing by the saddle stitching machine 200-3c. Examples of sheet processing executed by the saddle stitching machine 200-3c include saddle-stitch processing, punching, trimming, shift discharging, and folding. In the present embodiment, the job instructing execution of sheet processing by the saddle stitching machine 200-3c will be referred to as “the saddle-stitch job”.
In the case of processing the saddle-stitch job in the printing system 1000, the controller 205 causes the printing system 1000 to convey sheets printed by the printing apparatus 100 into the saddle stitching machine 200-3c while passing the sheets over the points A and B and a point C. Thereafter, the controller 205 causes the saddle stitching machine 200-3c to execute the sheet processing of the saddle-stitch job. Then, the controller 205 holds the printout subjected to the sheet processing by the saddle stitching machine 200-3c in the discharge destination Z within the saddle stitching machine 200-3c.
It should be noted that the discharge destination Z is selected from a plurality of candidate discharge destinations. This is because the saddle stitching machine 200-3c is capable of executing a plurality of kinds of sheet processing, and different discharge destinations are used for the respective kinds of processing.
Next, the internal construction of the saddle stitching machine 200-3c will be described as an example of the sheet processing apparatus 200 connectable to the printing apparatus 100 with reference to
The saddle stitching machine 200-3c is comprised of units enabling selective execution of stapling, trimming, punching, folding, shift discharging, and saddle-stitch processing, on sheets from the printing apparatus 100. Further, the saddle stitching machine 200-3c is capable of performing square back processing, described hereinafter. It should be noted that the saddle stitching machine 200-3c does not have a straight path for conveying sheets to a downstream apparatus. For this reason, in a case where a plurality of sheet processing apparatuses are connected to the printing apparatus 100, the saddle stitching machine 200-3c is disposed at the most downstream position.
A finisher 34 has a sample tray 21 and a stack tray 22 attached to the outside thereof, and has a square back-forming section 23 provided therein. A Z-folding machine 24 is connected to the upstream side of the finisher 34. In the case of executing a job instructing execution of Z folding, the controller 205 causes the Z-folding machine 24 to fold sheets printed by the printing apparatus 100 into a Z shape. Then, the controller 205 performs control such that the folded sheets pass through the saddle stitching machine to be discharged onto a discharge tray, i.e. the stack tray 22 or the sample tray 21.
When instructed to perform stapling by the saddle stitching machine 200-3c, the controller 205 performs control such that sheets printed by the printing apparatus 100 are sequentially stacked on a processing tray 25 disposed in the saddle stitching machine 200-3c. Then, when a number of sheets corresponding to one bundle are stacked on the processing tray 25, the controller 205 causes a stapler 26 to perform stapling. Thereafter, the controller 205 performs control such that the stapled sheet bundle is discharged from the processing tray 25 onto the stack tray 22.
Further, when instructed to perform punching by the saddle stitching machine 200-3c, the controller 205 causes a puncher 27 to punch sheets printed by the printing apparatus 100. Then, the controller 205 performs control such that the punched sheets are conveyed through the saddle stitching machine 200-3c to be discharged onto a discharge tray, i.e. the stack tray 22 or the sample tray 21.
Furthermore, in the case of executing a job instructing execution of saddle-stitch processing by the saddle stitching machine 200-3c, the controller 205 causes a saddle stitcher 28 to stitch a central portion (folding position for half folding to be performed later) of a sheet bundle formed by a number of sheets corresponding to one set, at two locations on the central portion. Then, the controller 205 causes a roller to come into contact with the central portion of the sheet bundle to fold the sheet bundle in half about the central portion. Thus, the sheet bundle can be bound into a booklet form. In the present embodiment, the sequence of sheet processing executed by the saddle stitcher 28 and including the two steps of stitching a sheet bundle at two locations and folding the sheet bundle in half will be referred to as the saddle-stitch processing. The sheet bundle subjected to the saddle-stitch processing by the saddle stitcher 28 is conveyed to the square back-forming section 23.
A description will be given of a case where a job is processed which instructs execution of saddle-stitch processing on a sheet bundle and further square back processing on the back of the saddle-stitched sheet bundle. The controller 205 controls the printing system 1000 such that after the saddle stitcher 28 executes the saddle-stitch processing on the printout printed by the printing apparatus 100, processing for making square the back of the saddle-stitched sheet bundle is performed in the square back-forming section 23. After completion of the processing, the printout is conveyed to a discharge port.
When a job instructing execution of saddle-stitch processing includes an instruction for performing trimming, the controller 205 performs control such that a saddle-stitched sheet bundle is conveyed from the discharge port to a trimmer 29. Thereafter, the controller 205 causes a cutter 30 to trim the sheet bundle conveyed to the trimmer 29, and then causes a booklet holding section 31 to hold the sheet bundle. The saddle stitching machine 200-3c shown in
The saddle stitching machine 200-3c is also configured to be capable of attaching a sheet (e.g. a cover sheet printed in advance) set in an insert tray 32 on an inserter 33 to sheets conveyed from the printing apparatus 100.
Next, square back processing executed by the square back-forming section 23 will be described with reference to
A booklet 2101 shown in
A folded part 2102 appearing in
As shown in
The sheet bundle (booklet 2101) subjected to the saddle-stitch processing by the saddle stitcher 28 as described above is conveyed to the square back-forming section 23 with the folded part 2102 in the leading position as shown in
In the present embodiment, the sequential sheet processing for flattening the back of a sheet bundle (i.e. forming a flat surface on the back) using the booklet-flattening members 2103 and 2104 so as to suppress bulging of the sheet bundle saddle-stitched by the saddle stitcher 28 is referred to as square back processing. The square back processing is also called a squaring process or square hold processing.
The booklet 2101 having undergone the square back processing is output to the booklet holding section 31 via the cutter 30 at a downstream location in the sheet conveying direction within the saddle stitching machine 200-3c.
The saddle-stitch job requiring saddle-stitch processing is roughly classified into one which requires square back processing, as described above, and another which does not. Whichever saddle-stitch job is selected, it is possible to output an associated printout to the booklet holding section 31 via the same conveying path.
For example, even a printout for the saddle-stitch job which does not require square back processing is also output to the booklet holding section 31 via the square back-forming section 23. In this case, the controller 205 locks the operations of the respective booklet-flattening members 2103 and 2104 so as to inhibit execution of square back processing by the square back-forming section 23. Then, in a state where the members are kept on standby, the printout for the saddle-stitch job is passed without being subjected to square back processing.
Next, the arrangement of the operating section 204 will be described with reference to
The operating section 204 is comprised of a touch panel section 401 and a key input section 402. The touch panel section 401 is comprised of an LCD (Liquid Crystal Display) and transparent electrodes laminated on the same, and displays various kinds of configuration screens for accepting instructions from the operator. The touch panel section 401 has not only a function of displaying the various screens, but also an instruction input function of accepting the instructions from the operator. The key input section 402 includes a power key 501, a start key 503, a stop key 502, a user mode key 505, and ten keys 506. The start key 503 is used to cause the printing apparatus 100 to start a copy job or a transmission job. The ten keys 506 are used to enter numerical values indicative of a copy count and the like.
The controller 205 controls the printing system 1000 such that the printing system 1000 performs various kinds of processing responsive to instructions accepted via the respective screens displayed on the touch panel section 401 or via the key input section 402.
When the operator presses a sheet processing configuration key 609, appearing in
Next, a case of processing an 8-page saddle-stitch job will be described as an example of saddle-stitch processing and print processing prior to the saddle-stitch processing.
When a saddle stitching mode is set on the configuration screen 700, an image forming order and image forming positions of the image data items R1 to R8 for 8 pages are determined as shown in
The sheet P1 having the images formed on the opposite sides thereof is conveyed in a direction indicated by an arrow in
As shown in
The thus folded sheet bundle is formed into a printout shown in
The printing system 1000 according to the present embodiment includes the printer section 203 and the saddle stitcher 28, appearing in
Thus, the printing system 1000 according to the present embodiment is configured to be capable of forming a saddle-stitched brochure subjected to the square back processing and trimming processing using the above-mentioned units. The saddle-stitched brochure has its back formed with a flat surface, and an end (edge) opposite from the back trimmed. In the present embodiment, a job for creating a saddle-stitched brochure is categorized as a first-type job and the controller 205 performs control such that the printing system 1000 can execute processing required for the first-type job.
The printing system 1000 according to the present embodiment can also create a saddle-stitched brochure not subjected to square back processing and trimming processing, using the saddle stitcher 28 and the cutter 30. The saddle-stitched brochure has a back not formed with a flat surface and an end opposite from the back trimmed. In the present embodiment, this type of saddle-stitched brochure is categorized as a saddle-stitched brochure of a second type, and a job for creating a printout in this form is categorized as a second-type job. The controller 205 performs control such that the printing system 1000 can also execute processing required for the second-type job.
In the present invention, the controller 205 functions as a control unit. For example, the controller 205 controls (adjusts) a trimming position on an edge of a sheet bundle for a job to be processed by the printing system 1000 and/or image printing positions on respective sheets forming the sheet bundle for the job, based on whether or not the job requires square back processing. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations, which will be described in the present first embodiment and a second embodiment described hereinafter.
When a job to be processed by the printing system 1000 is a second-type job not requiring square back processing, the controller 205 permits the cutter 30 appearing in
On the other hand, when a job to be processed by the printing system 1000 is a first-type job requiring square back processing, the controller 205 performs control such that the cutter 30 is inhibited from trimming the edge of a sheet bundle for the job by the predetermined trimming amount. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations which will be described in the first embodiment.
It should be noted that in the present embodiment, the above-mentioned predetermined trimming amount is set to a value specified by the operator such that the value is not allowed for a first-type job (corresponding to a saddle-stitch job with square back processing), but is allowed for a second-type job (corresponding to a saddle-stitch job without square back processing). In the printing system 1000 according to the present embodiment, the range of specific numerical values of the predetermined trimming amount is set to be not smaller than 10.0 mm and smaller than 20.0 mm.
When a job to be processed by the printing system 1000 is a second-type job not requiring square back processing, the controller 205 permits the cutter 30 appearing in
On the other hand, when a job to be processed by the printing system 1000 is a first-type job requiring square back processing, the controller 205 performs the following control: The controller inhibits the cutter 30 from trimming the edge of a sheet bundle for the job by the aforementioned predetermined trimming amount, but permits the cutter 30 to trim the edge of the sheet bundle by a second trimming amount larger than the predetermined trimming amount. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations, which will be described in the first embodiment.
It should be noted that in the present embodiment, the above-mentioned first trimming amount is set to a value specified by the operator such that the value is selected from a range including the range of the predetermined trimming amount not allowed for a first-type job but allowed for a second-type job. In the printing system 1000 according to the present embodiment, the range of specific numerical values of the first trimming amount is set to be not smaller than 10.0 mm and not larger than 30.0 mm (see [Rule 1-1] in
On the other hand, the second trimming amount is set to a value specified by the operator such that the value is selected from a range which is allowed both for a first-type job and for a second-type job but is exclusive of the range of the predetermined trimming amount. In the printing system 1000 according to the present embodiment, the range of specific numerical values of the second trimming amount is set to be not smaller than 20.0 mm and not larger than 30.0 mm (see [Rule 1-2] in
Further, assume a case where a job to be processed by the printing system 1000 is a second-type job not requiring square back processing. In this case, the controller 205 permits the printer section 203 to perform print processing on sheets for the job based on a predetermined correction amount (creep correction amount) set for correcting a shift in image position between outer sheets and inner sheets of an associated saddle-stitched brochure.
On the other hand, when a job to be processed by the printing system 1000 is a first-type job requiring square back processing, the controller 205 performs control such that the printer section 203 is inhibited from performing print processing on sheets for the job based on the predetermined creep correction amount. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations, which will be described hereinafter in the second embodiment.
It should be noted that in the present embodiment, the above-mentioned predetermined creep correction amount is set to a value specified by the operator such that the value is not allowed for a first-type job (corresponding to a saddle-stitch job with square back processing), but allowed for a second-type job (corresponding to a saddle-stitch job without square back processing). In the printing system 1000 according to the present embodiment, the range of specific numerical values of the predetermined creep correction amount is set to be not smaller than 0.10 mm and smaller than 0.20 mm.
Further, assume a case where a job to be processed by the printing system 1000 is a second-type job not requiring square back processing. In this case, the controller 205 permits the printer section 203 to perform print processing on sheets for the job based on a first creep correction amount the range of which includes the range of the predetermined creep correction amount for correcting a shift in image position between outer sheets and inner sheets of the saddle-stitched brochure.
Assume, on the other hand, a case where a job to be processed by the printing system 1000 is a first-type job requiring square back processing. In this case, the controller 205 performs control such that the printer section 203 is inhibited from performing print processing on sheets for the job by the predetermined creep correction amount, but by a second creep correction amount larger than the predetermined creep correction amount. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations, which will be described in the second embodiment.
It should be noted that in the present embodiment, the above-mentioned first creep correction amount is set to a value specified by the operator such that the value is selected from a range including the range of the predetermined creep correction amount not allowed for a first-type job but allowed for a second-type job. In the printing system 1000 according to the present embodiment, the range of specific numerical values of the first creep correction amount is set to be not smaller than 0.10 mm and not larger than 10.00 mm (see [Rule 2-1] in
On the other hand, the second creep correction amount is set to a value specified by the operator such that the value is selected from a range which is allowed both for a first-type job and for a second-type job but is exclusive of the range of the predetermined creep correction amount. In the printing system 1000 according to the present embodiment, the range of specific numerical values of the second creep correction amount is set to be not smaller than 0.20 mm and not larger than 10.00 mm (see [Rule 2-2] in
Further, assume a case where a job to be processed by the printing system 1000 is a second-type job not requiring square back processing. In this case, the controller 205 permits the printer section 203 to perform print processing on sheets for the job based on the predetermined creep correction amount, and at the same time permits the cutter 30 to trim the edge of a sheet bundle formed by the sheets for the job, by the predetermined trimming amount.
Assume, on the other hand, a case where a job to be processed by the printing system 1000 is a first-type job requiring square back processing. In this case, the controller 205 performs control such that the printer section 203 is inhibited from performing print processing on sheets for the job based on the predetermined correction amount, and at the same time the cutter 30 is inhibited from trimming the edge of a sheet bundle formed by the sheets for the job, by the predetermined trimming amount. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations, which will be described in the first embodiment and in the second embodiment described hereinafter. Further, in the present embodiment, the controller 205 functions based on the four rules of [Rule 1-1] to [Rule 2-2] described in the management table 2400 in
Further, assume a case where a job to be processed by the printing system 1000 is a second-type job not requiring square back processing. In this case, the controller 205 permits the printer section 203 to perform print processing on sheets for the job based on the aforementioned first creep correction amount, and at the same time permits the cutter 30 to trim the edge of a sheet bundle formed by the sheets for the job, by the aforementioned first trimming amount.
Assume, on the other hand, a case where a job to be processed by the printing system 1000 is a first-type job requiring square back processing. In this case, the controller 205 performs control such that the printer section 203 is inhibited from performing print processing on sheets for the job based on the predetermined creep correction amount, but is permitted to perform print processing on the sheets based on the aforementioned second creep correction amount. At the same time, the controller 205 performs control such that the cutter 30 is inhibited from trimming the edge of a sheet bundle formed by the sheets for the job, by the predetermined trimming amount, but is permitted to trim the edge of the sheet bundle by the aforementioned second trimming amount. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations, which will be described in the first embodiment and in the second embodiment described hereinafter. Further, in the present embodiment, the controller 205 functions based on four rules of [Rule 1-1] to [Rule 2-2] described in the management table 2400 in
The controller 205 in the present embodiment performs control such that the operator is permitted to set the predetermined trimming amount for a second-type job via a user interface (hereinafter simply referred to “the UI”). On the other hand, the controller 205 performs control such that the operator is inhibited from setting the predetermined trimming amount for a first-type job via the UI. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with various configurations described below in the first embodiment. In the present embodiment, the controller 205 functions based on [Rule 1-1] and [Rule 1-2] described in the management table 2400 in
Further, the controller 205 in the present embodiment performs control such that the operator is permitted to set the predetermined creep correction amount for a second-type job via the UI. On the other hand, the controller 205 performs control such that the operator is inhibited from setting the predetermined creep correction amount for a first-type job via the UI. To perform an operation in accordance with this control, the printing system 1000 according to the present embodiment is equipped with the various configurations which will be described hereinafter in the second embodiment, and the controller 205 functions based on [Rule 2-1] and [Rule 2-2] described in the management table 2400 in
Further, assume a case where a job to be processed by the printing system 1000 is a first-type job requiring square back processing. In this case, the controller 205 in the present embodiment performs control such that trimming of the edge of a sheet bundle for the job by the predetermined trimming amount is inhibited and/or such that execution of print processing on sheets forming the sheet bundle for the job, based on the predetermined creep correction amount, is inhibited. As described hereinabove, these predetermined trimming amount and predetermined creep correction amount are allowed only for a second-type job, and hence controlled (adjusted) by the controller 205 such that they are by no means allowed for a first-type job.
As one example of the above-described control, the controller 205 may cause the UI to display a warning message. Further, as another example of the above-described control, the controller 205 may perform control such that the operator can change settings for a first-type job via the UI. As still another example of the above-described control, the controller 205 may cancel the first-type job. In the present embodiment, “to cancel processing for the job” includes “to inhibit square back processing required for the job”. Further, it includes not only “to inhibit saddle-stitch processing required for the job”, but also “to inhibit print processing required for the job”. Furthermore, it includes “to erase data for a job from the HDD 209 after cancellation of associated print processing”.
As described above, when the trimming amount and/or the creep correction amount is not properly set for a job to be processed, the controller 205 inhibits (cancels) not only square back processing and saddle-stitch processing configured for the job, but also print processing. This configuration makes it possible to construct an environment further matched with a working site under a POD environment for delivering brochures as commercial articles in response to a request from a customer. Further, by inhibiting creation of a brochure which does not match a customer's request and printout per se for the brochure, it is possible to provide a printing environment which makes it possible to output a plurality of jobs in forms desired by a customer, with high productivity, without waste of time and costs.
The management table 2400 in
It should be noted that the specific numerical values mentioned in the management table 2400 are only given by way of example, and the present invention is not limited to these. As in the printing system 1000 according to the present embodiment, the management table 2400 is desirably configured such that it is possible to maintain a rule of the lower limit value of the trimming amount allowed for the saddle-stitch job with square back processing being larger than the lower limit value of the trimming amount allowed for the saddle-stitch job without square back processing. Further, As in the printing system 1000 according to the present embodiment, the management table 2400 is desirably configured such that it is possible to maintain a rule of the lower limit value of the creep correction amount allowed for the saddle-stitch job with square back processing being larger than the lower limit value of the creep correction amount allowed for the saddle-stitch job without square back processing. Further, it is desirable to control the system according to these rules.
First, differences between a case where square back processing is executed and a case where square back processing is not executed will be described with reference to
On the other hand,
Next, a shift between an outer sheet and an inner sheet included in one set of printed sheets for a saddle-stitched printout will be described with reference to
As shown in
As is apparent from this, in trimming the fore edge of a saddle-stitched brochure according to the position of an outermost sheet (cover sheet) included in one set of printed sheets of the saddle-stitched brochure, when the brochure has a square back, it is required to trim the fore edge by a larger amount than when the brochure does not have a square back. If trimming is performed by the same trimming amount irrespective of whether or not a brochure is formed with a square back, there can arise a problem that outer sheets of a brochure with a square back cannot be trimmed. In view of this, in the present first embodiment, the controller 205 performs control such that it is possible to prevent occurrence of a trouble of inadvertently creating a saddle-stitched brochure defective in the appearance of a trimmed edge, which is caused due to the flexibility of setting of whether to execute square back processing or not. To perform an operation in accordance with this control, the printing system 1000 is equipped with configurations described below.
First, examples of trimming amount-setting screens in the respective cases of the saddle-stitched brochure without a square back and the saddle-stitched brochure with a square back of one will be described with reference to
The printing system 1000 according to the present embodiment is configured such that the operator can configure settings as to whether or not to execute saddle-stitch processing, settings for separate-volume bookbinding, settings for trimming, settings for adjustment (control) of saddle-stitching positions, and so forth, via the saddle-stitch job configuration screen 1200 shown in
For example, assume a case where the operator presses an “Saddle-stitch” button 1204 on the saddle-stitch job configuration screen 1200 in
In the case of causing the touch panel section 401 to display the trimming amount-setting screen 1300 in
On the other hand, assume a case where the operator presses the “Saddle-stitch” button 1204 on the saddle-stitch job configuration screen 1200 in
In the case of causing the touch panel section 401 to display the trimming amount-setting screen 1400 in
As described hereinabove, the positional shift amount between an outer sheet and an inner sheet of a saddle-stitched brochure varies with the number and type (thickness per sheet) of sheets forming the saddle-stitched brochure. For this reason, an event can occur in which outer sheets of a saddle-stitched brochure are not trimmed by a trimming amount set on the configuration screens. Further, even when a maximum value of the trimming amount indicative of the upper limit of the same is set, the outer sheets can be left uncut, depending on a combination of the sheet type and the sheet size. To cope with this event, when an “OK” button is pressed on the screen in
When a “Change trimming position” button 1501 is selected, the configuration screen shown in
Next, a printing process including saddle-stitch processing will be described with reference to
First, the controller 205 determines, e.g. based on whether or not the saddle-stitching mode key 705 has been pressed, whether or not a job to be processed is a saddle-stitch job (S1601). If the job is not a saddle-stitch job, the ordinary printing process is performed (S1609). On the other hand, if the job is a saddle-stitch job, the controller 205 causes the touch panel section 401 to display the configuration screens 700 and 1200 shown in
Next, the controller 205 performs bookbinding layout (imposition) processing for the job to be processed, based on the settings stored in the HDD 209 (S1604). Thereafter, image data having undergone the bookbinding layout processing is printed by the printing apparatus 100 (S1605), and then saddle-stitch processing (two-position stitching and half folding) is executed by the sheet processing apparatus 200 (S1606). When the job to be processed includes square back processing, the square back processing is performed by the square back-forming section 23 within the sheet processing apparatus 200 (S1607). Further, if trimming processing has been designated, the trimming processing is performed by the cutter 30 (S1608), followed by a printout having undergone the trimming processing being delivered to the booklet holding section 31. It should be noted that print processing executed based on the creep correction amount, described hereinafter, is realized by the bookbinding layout processing performed using the memory in the step S1604.
Next, a method of setting the trimming amount included in the settings associated with the processing conditions for the saddle-stitch job, which are accepted in the step S1602 in
When the “Trim edge” button 1202 is selected on the saddle-stitch job configuration screen 1200 in
On the other hand, if square back processing has not been designated, the trimming amount-setting screen 1300 in
Next, the controller 205 performs a comparison between the set trimming amount (set value of the trimming amount) and the shift amount (amount of the positional shift) (S1709). If the shift amount is larger than the trimming amount, the warning screen 1500 shown in
Referring to the warning screen 1500 in
As described above, in the case of processing a job including saddle-stitch processing, the controller 205 determines whether or not the value of the trimming amount set by the operator is valid. Then, when the set value is invalid, the controller 205 displays a warning screen to warn the operator, and at the same time performs control such that the operator is permitted to change the setting, to thereby prevent wasteful printing from being performed for creation of an unintended brochure. In particular, a printout for a saddle-stitch job is trimmed based on the number of sheets required for printing in the job, the type of the sheets, and the setting as to whether or not square back processing is to be executed. This makes it possible to prevent wasteful printing from being performed for creation of a defective brochure having its outer portion (portion including a cover sheet) left uncut and only its inner (main) portion trimmed.
Next, a second embodiment of the present invention will be described in detail with reference to drawings. It should be noted that the following description will be mainly given of different points in the configuration of the second embodiment from those of the first embodiment, and description of the other points in the configuration, which are identical to the corresponding ones of the first embodiment, is omitted. In the second embodiment, the controller 205 performs control such that it is possible to prevent occurrence of a trouble of inadvertently creating a saddle-stitched brochure defective in results of printing (i.e. printed image position), which is caused due to the flexibility of setting of whether to execute square back processing or not. To perform an operation in accordance with this control, the printing system 1000 is equipped with configurations described below.
The upper part of
Similarly, the upper part of
On the other hand, the lower part of
Similarly, the lower part of
As described with reference to
Now, assume a case where 4-page images, i.e. the first-page image, the eighth-page image, the second-page image, and the seventh-page image, are laid out on the front and reverse of the sheet to be finally disposed on the outer side of the saddle-stitched brochure, as described with reference to
Next, an image position adjustment amount (adjustment of the creep correction amount) in adjustment of the position of an image from the central axis of a sheet will be described with reference to
Adjustment of the creep correction amount can be performed either automatically or manually on the creep correction amount adjustment screen 2000. Referring to
As shown in
As described hereinabove, the amount of positional shift between an outer sheet and an inner sheet of a saddle-stitched brochure varies with the sheet count and sheet type (thickness). For this reason, an event can occur in which when image printing is performed based on the creep correction amount set on the creep correction amount-setting screen 2100 in
When a “Change creep correction amount” button 2301 is selected, the creep correction amount-setting screen 2100 in
Next, a creep correction amount-setting process included in the process for setting the processing conditions for a saddle-stitch job will be described with reference to
When the “Correct creep (shift)” button 1203 is selected on the saddle-stitch job configuration screen 1200 (YES to S2301), the controller 205 determines which of the “Auto” button and the “Manual” button has been selected on the creep correction amount adjustment screen 2000 (S2302). If the “Auto” button has been selected, the creep correction amount is automatically set according to the sheet type set in the saddle-stitch job or the number of sheets required for printing. Further, if the “Auto” button has been selected, the controller 205 determines whether or not the “Adjust correction amount” button 2003 appearing in
On the other hand, if the controller 205 determines in the step S2302 that the “Manual” button has been selected, it determines whether or not square back processing has been designated (S2303). If square back processing has been designated, the default value of the creep correction amount, shown in
On the other hand, if no square back processing has been designated, the default value of the creep correction amount, shown in
Next, the controller 205 performs a comparison between the set creep correction amount and the shift amount (S2310). If the shift amount is larger than the creep correction amount, the warning screen 2300 shown in
Referring to the warning screen 2300 in
As described above, in the case of processing a job including saddle-stitch processing, the controller 205 determines whether or not the value of the creep correction amount set by the operator is valid. Then, when the set value is invalid, the controller 205 displays a warning screen to warn the operator, and at the same time control is performed such that the operator is permitted to change the setting, to thereby prevent wasteful printing from being performed for creation of an unintended brochure. In particular, the creep correction amount for a saddle-stitch job is set based on the number of sheets required for printing in the job, the type of the sheets, and the setting as to whether to execute square back processing or not, and therefore it is possible to prevent wasteful printing from being performed for creation of a defective brochure suffering from a shift in image position between outer sheets and inner sheets thereof.
Next, a description will be given of variations of the above-described embodiments.
In
For example, assume a case where the controller 205 accepts settings for trimming in a saddle-stitch job without square back processing from the operator via the trimming amount-setting screen 1300 in
Further, when the controller 205 accepts a setting for creep correction in a saddle-stitch job without square back processing from the operator via the creep correction amount-setting screen 2100 in
Thus, the printing system 1000 may be configured such that the controller 205 restricts the operator's operation in advance or performs exclusive control e.g. by displaying invalidity of a touch panel key, according to rules described in the management table 2400 in
The various kinds of processing described in the first embodiment are practiced under the control by the controller 205. Similarly, the various kinds of processing described in the second embodiment are practiced under the control by the controller 205. For example, the control of the trimming amount and the control of the creep correction amount, each of which is applied to a saddle-stitch job, as described above, in accordance with determination as to whether or not to execute square back processing, are both executed by the controller 205. The controller 205 controls the printing system 1000 to execute every step from the step S1601 to the step S1608 in
As described above, the printing system according to either of the above-described embodiments is configured to be capable of performing both the control of the first embodiment (hereinafter referred to as “the first control”) and the control of the second embodiment (hereinafter referred to as “the second control”). However, this is not limitative, but it is possible to make various changes and modifications. For example, the printing apparatus and/or the printing system is configured to be capable of executing only one of the first control and the second control. Further, the various kinds of processing and/or control operations, described above in the first and second embodiments, may be executed by a single unit, or alternatively they may be shared by a plurality of units so that the units cooperate to execute them. Furthermore, the aforementioned sheet processing apparatuses may be used as optional equipment for the printing apparatus or provided as standard equipment for the same. The printing system may be also configured such that a unit for performing control corresponding to the control performed by the controller 205 described above is incorporated in a sheet processing apparatus, or a host computer or an external information processing apparatus like a portable terminal apparatus, which is capable of performing data communication with the printing apparatus via the network. This enables the apparatus to function by itself as a system corresponding to the printing system 1000 according to the present embodiment. Although in the above configurations, the controller 205 functions as a unit for performing a plurality of determinations and control operations for square back processing, this is not limitative. For example, some of the determinations and control operations to be performed by the controller 205 in the above-described embodiment may be performed by another unit. Thus, the present invention can be applied not only to a case where an apparatus and/or a system is controlled by a single CPU, but also to a case where a plurality of CPUs cooperate to control an apparatus and/or a system.
Further, although in the present embodiment, two-position stitching using two staples is performed for saddle-stitch processing, this is not limitative, either. For example, the fold of a sheet bundle folded in half may be stitched at three locations using three staples, i.e. three-position stitching may be performed. Further, stitching members other than staples may be used for saddle-stitch processing. For example, a thread may be used to stitch the fold of a sheet bundle folded in half.
As described above, the printing system 1000 is provided with the various configurations. Thus, the printing system is constructed to be capable of performing square back processing, and therefore it is possible to suppress occurrence of the trouble that a saddle-stitched brochure defective in the appearance of a trimmed edge and/or print appearance is inadvertently created.
It is to be understood that the present invention may also be accomplished by supplying a system or an apparatus with a storage medium in which a program code of software, which realizes the functions of the above described embodiment, is stored, and causing a computer (or CPU or MPU) of the system or apparatus to read out and execute the program code stored in the storage medium.
In this case, the program code itself read from the storage medium realizes the functions of the above described embodiment, and therefore the program code and the storage medium in which the program code is stored constitute the present invention.
Examples of the storage medium for supplying the program code include a floppy (registered trademark) disk, a hard disk, a magnetic-optical disk, an optical disk, such as a CD-ROM, a CD-R, a CD-RW, a DVD-ROM, a DVD-RAM, a DVD-RW, or a DVD+RW, a magnetic tape, a nonvolatile memory card, and a ROM. Alternatively, the program may be downloaded via a network.
Further, it is to be understood that the functions of the above described embodiment may be accomplished not only by executing the program code read out by a computer, but also by causing an OS (operating system) or the like which operates on the computer to perform a part or all of the actual operations based on instructions of the program code.
Further, it is to be understood that the functions of the above described embodiment may be accomplished by writing a program code read out from the storage medium into a memory provided on an expansion board inserted into a computer or a memory provided in an expansion unit connected to the computer and then causing a CPU or the like provided in the expansion board or the expansion unit to perform a part or all of the actual operations based on instructions of the program code.
Further, it is to be understood that the functions of either of the above-described embodiments may be accomplished not only by executing the program code read out by a computer, but also by causing an OS (operating system) or the like which operates on the computer to perform a part or all of the actual operations based on instructions of the program code. In this case, the program code is supplied from a storage medium in which the program code is stored, or is supplied by downloading directly from another computer, a database, or the like, not shown, connected to the Internet, a commercial network, a local area network, or the like.
Although in the above embodiment, the electrophotographic printing is adopted as the printing method executed by the complex apparatus, there is no intention to limit the invention to this. For example, the present invention may be applied to a variety of printing methods such as ink-jet printing, thermal transfer printing, thermal printing, electrostatic printing, and discharge breakdown printing.
The form of the program may be an object code, a program code executed by an interpreter, or script data supplied to an OS (Operating System).
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all modifications, equivalent structures and functions.
Toda, Masayuki, Ushiyama, Kazuhiko, Tokashiki, Kiyoshi
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